Modeling on mass abrasion of kinetic energy penetrator

Xiaowei Chen; Shiquan Yang; Liling He

Modeling on mass abrasion of kinetic energy penetrator

Xiaowei Chen^*, Shiquan Yang, Liling He

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

23 Citations (Scopus)

Abstract

An engineering model on mass abrasion of kinetic energy (KE) penetrator is presented to predict the nose shape and mass loss of the residual projectile after high speed penetration into concrete. The experimental analysis indicates that the kinetic energy of penetrator (i.e., mass and velocity of projectile) and the hardness of aggregate of concrete noticeably affect the mass abrasion of projectile. Generalized relationship between mass loss and impact function I of projectile is constructed. Graphical analysis shows that the most mass loss occur on the nose of projectile and the eroding nose approach to an ogival shape with a small value of caliber-radius-head (CRH). The mass loss from abrasion on KE penetrator may be evaluated through the variation of nose shapes.

Original language	English
Pages (from-to)	739-747
Number of pages	9
Journal	Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics
Volume	41
Issue number	5
Publication status	Published - Sept 2009
Externally published	Yes

Keywords

Engineering model
Kinetic energy penetrator
Mass abrasion
Penetration

Cite this

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title = "Modeling on mass abrasion of kinetic energy penetrator",

abstract = "An engineering model on mass abrasion of kinetic energy (KE) penetrator is presented to predict the nose shape and mass loss of the residual projectile after high speed penetration into concrete. The experimental analysis indicates that the kinetic energy of penetrator (i.e., mass and velocity of projectile) and the hardness of aggregate of concrete noticeably affect the mass abrasion of projectile. Generalized relationship between mass loss and impact function I of projectile is constructed. Graphical analysis shows that the most mass loss occur on the nose of projectile and the eroding nose approach to an ogival shape with a small value of caliber-radius-head (CRH). The mass loss from abrasion on KE penetrator may be evaluated through the variation of nose shapes.",

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author = "Xiaowei Chen and Shiquan Yang and Liling He",

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T1 - Modeling on mass abrasion of kinetic energy penetrator

AU - Chen, Xiaowei

AU - Yang, Shiquan

AU - He, Liling

PY - 2009/9

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N2 - An engineering model on mass abrasion of kinetic energy (KE) penetrator is presented to predict the nose shape and mass loss of the residual projectile after high speed penetration into concrete. The experimental analysis indicates that the kinetic energy of penetrator (i.e., mass and velocity of projectile) and the hardness of aggregate of concrete noticeably affect the mass abrasion of projectile. Generalized relationship between mass loss and impact function I of projectile is constructed. Graphical analysis shows that the most mass loss occur on the nose of projectile and the eroding nose approach to an ogival shape with a small value of caliber-radius-head (CRH). The mass loss from abrasion on KE penetrator may be evaluated through the variation of nose shapes.

AB - An engineering model on mass abrasion of kinetic energy (KE) penetrator is presented to predict the nose shape and mass loss of the residual projectile after high speed penetration into concrete. The experimental analysis indicates that the kinetic energy of penetrator (i.e., mass and velocity of projectile) and the hardness of aggregate of concrete noticeably affect the mass abrasion of projectile. Generalized relationship between mass loss and impact function I of projectile is constructed. Graphical analysis shows that the most mass loss occur on the nose of projectile and the eroding nose approach to an ogival shape with a small value of caliber-radius-head (CRH). The mass loss from abrasion on KE penetrator may be evaluated through the variation of nose shapes.

KW - Engineering model

KW - Kinetic energy penetrator

KW - Mass abrasion

KW - Penetration

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JF - Lixue Xuebao/Chinese Journal of Theoretical and Applied Mechanics

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Modeling on mass abrasion of kinetic energy penetrator

Abstract

Keywords

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